FR2812976A1 - Mobile telephone coaxial connector removable section having flexible non oxidized steel connection piece with contact section fixed section contacting. - Google Patents

Abstract

The removable section (31) forms part of a coaxial connector (1). There is a flexible part (39) and contact section (38). The contact section contacts a fixed section (21). The flexible moving section is made of non oxidized steel.

Description

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BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile terminal, a coaxial connector and a communication device.

2. Description of the Prior Art To date, in mobile communication equipment such as portable telephones, some devices have used a surface mount type coaxial connector which has a switching function for a communication channel. signal. The coaxial connector is formed by a resin case, a fixed terminal and a mobile terminal having an elastic property, which elements are formed integrally with said case by means of insertion molding. A movable terminal which is used in a coaxial connector of the conventional surface mount type can generally be of a cantilever type and is frequently made from phosphor bronze.

However, in accordance with recent advances in the miniaturization of the coaxial connector and the reduction of its height, a miniaturization of the mobile terminal is also required so that the dimension of a mobile elastic part and the thickness of the mobile terminal are reduced. However, in a cantilever structure, in order to have a point pressure by contact between the mobile terminal and the fixed terminal, the thickness of the material must be established so as to be comparatively large. Furthermore, in the cantilever structure, in order to prevent deficiencies in the connector due to plastic deformation of the lever, the total length of the lever must necessarily be large. Consequently, the miniaturization of the mobile terminal is limited, which necessarily hampers the miniaturization of the connector itself.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a mobile terminal, a coaxial connector and a communication device which can be miniaturized and whose heights can be reduced.

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 In order to achieve the above-mentioned object, a mobile terminal in accordance with the present invention comprises (a) a frame; (b) a mobile elastic part, the two sides of which are supported by the frame and a central part of which is mobile and has an elastic property; and (c) a contact part which is integrally formed with the movable elastic part and which comes into contact with and connects to a fixed terminal; (d) at least the movable elastic part being made of SUS 301 stainless steel. Preferably, on surfaces of SUS 301 stainless steel, nickel plating films are formed and on surfaces of nickel plating films, gold plating films are formed and the total thickness of SUS 301 stainless steel with nickel plating films and gold plating films formed thereon is in the range of 45 micrometers to 62 micrometers .

A coaxial connector according to the present invention comprises (e) an insulating housing having a recess formed therein, recess inside which a central contact of a coaxial connector of another part is inserted; (F) a movable terminal according to the characteristics described above which is arranged inside the recess of the insulating housing so as to project in a direction substantially orthogonal to the direction of insertion of the central contact; (g) a fixed terminal arranged inside the recess of the insulating housing so as to be brought into contact with the contact part of the mobile terminal and to be connected thereto; and (h) an external terminal fixed to the outside of the insulating housing and electrically connected to an external conductor of a coaxial connector of another part, (i) the contact part of the mobile terminal being switched between the state in which it is separated from the fixed terminal and the state in which it comes into contact with the fixed terminal in accordance with the fixing and detachment of the coaxial connector from another part.

In accordance with the structure described above, the mobile terminal has the structure of a beam supported at the two ends and has an elastic force greater than that of a conventional mobile terminal due to a mobile elastic part of a structure of

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 beam supported at both ends and made from SUS 301 stainless steel. Therefore, even when the mobile bollard has its reduced size and reduced material thickness, safe and stable contact and connection can be achieved. What is more, even when the thickness of SUS 301 stainless steel presents a certain disparity between each batch of material, by means of plating with nickel having a Young's modulus similar to that of SUS 301 stainless steel , variations in the elastic force due to errors in the thickness of the SUS 301 stainless steel of the mobile elastic part can be compensated.

A communication device according to the present invention may have a thickness and a reduced weight if it comprises a coaxial connector having the characteristics described above.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an assembly view of a coaxial connector in accordance with an embodiment of the present invention; Figure 2 is an external perspective view of the coaxial connector which is shown in Figure 1; Figure 3 is a sectional view of a movable terminal of the coaxial connector which is shown in Figure 1; Figure 4 is a sectional view of the coaxial connector which is shown in Figure 2; Figure 5 is a sectional view of the coaxial connector which is shown in Figure 2 when a coaxial connector of another part is fitted therein; Figure 6 is a graph showing the relationship between a push load of the movable terminal of the coaxial connector shown in Figure 1 and its displacement; and Figure 7 is a block diagram of a communication apparatus according to another embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a mobile terminal, of a connector

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 coaxial and a communication apparatus according to the present invention will be described below with reference to the accompanying drawings.

(First embodiment, Figures 1 to 6) Figure 1 shows an assembly view of an embodiment of a coaxial connector according to the present invention and Figure 2 is an external perspective view of this same coaxial connector . The coaxial connector (coaxial receptacle) 1 comprises an insulating housing made from a synthetic resin and divided according to a lower insulating housing 2A and according to an upper insulating housing 2B, a fixed metal terminal 21, a movable terminal 31 and a terminal external (external conductor) 41.

The lower insulating housing 2A has a substantially rectangular shape and the four angles on its upper face (dividing face) are provided with guide protrusions 3 for positioning the upper insulating housing 2B. In the vicinity of the guide protrusions 3, lug receptors 4 are formed to place four circular lugs 18 which are formed on the lower face (dividing face) of the upper insulating housing 2B. In addition, rectangular cutouts 6 and 7 are formed in the respective central parts of two opposite sides to each other of the lower insulating housing 2A. In the cutout 6, a connection 24 (which will be described later) of the fixed terminal 21 is adapted while a connection 34 (which will be described later) of the mobile terminal 31 is adapted in the cutout 7.

The upper insulating box 2B comprises a substantially rectangular cover 11 and a cylindrical introduction section 12 formed in the central part on the upper face of the cover 11. The cylindrical introduction section 12 is open upwards so as to have a shape conical and it has a circular introduction hole in section 13. The introduction hole 13 enters the upper insulating housing 2B. Inside the insertion hole 13, a central contact of a coaxial connector from another part is inserted from the conical opening. Furthermore, four corners of the cover 11 are provided with cutouts 14 in which the protrusions of

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 guide 3 of the lower insulating housing 2A so that the upper insulating housing 2B and the lower insulating housing 2A are assembled together according to a high degree of positioning accuracy.

The fixed terminal 21 is formed by punching and bending a flat metal plate and it comprises a contact part 22 intended to come into contact with the mobile terminal 31, a fixed part 23 which is sandwiched and which is fixed by the housings insulators 2A and 2B and a connection 24 which is bent in an L-shape. The contact part 22 is formed by bending its two sides by a predetermined angle and it has a horizontal plane 22a and inclined planes 22b on the two sides of the horizontal plane 22a.

On the two sides of the fixed part 23, semi-circular recesses 26 are formed, which semi-circular recesses receive respectively in adaptation the tabs 18 of the upper insulating housing 2B so that the fixed terminal 21 is assembled on the insulating housing superior 2B according to a high degree of positioning accuracy. At this instant, the fixed terminal 21 is assembled in a state in which the horizontal plane 22a and the fixed part 23 of the contact part 22 adhere firmly to the lower surface of the upper insulating housing 2B.

The mobile terminal 31 is formed by punching a stainless steel plate SUS 301 having an elastic property so that this plate has a predetermined shape and bending it. Then as shown in Figure 3, on the surfaces of stainless steel (SUS 301) 38a, nickel plating films 38b are formed and in addition, on nickel plating films 38b, gold plating films 38c are formed so that the complete thickness of the movable terminal 31 falls within the range which goes from 45 micrometers to 62 micrometers. The Young's modulus of stainless steel (SUS 301) and of nickel are approximately 200 Gpa (gigapascals), respectively, and the Young's modulus of gold is 80 Gpa. Consequently, the Young's modulus of gold is sufficiently lower than that of stainless steel (SUS 301) and nickel and moreover, since the thickness of the gold plating falls within the range which goes

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 from approximately 0.05 micrometers to 0.15 micrometers, an influence of the gold plating on the elastic characteristic of the mobile terminal 31 and on the increase in the thickness of the mobile terminal 31 is negligible.

The mobile terminal 31 comprises a mobile contact part 32 which is formed so as to have a mobile elastic function and so as to be in contact with the fixed terminal 21, a fixed part 33 which is sandwiched by the insulating housings 2A and 2B and a connection 34 which is formed so as to be bent in an L shape. The movable contact part 32 which has the structure of a beam supported at the two ends comprises a U-shaped frame (or frame) 37, a mobile elastic part 39 which extends over two arms 37a and 37b of the frame 37 and an elastic contact part 38 which is arranged in the center of the mobile elastic part 39. In the mobile elastic part 39, the length s' entered in the range from approximately 1 millimeter to 3 millimeters (the representative value is 2 millimeters); the two ends are supported by the arms 37a and 37b and are fixed to these two arms; the central part forms a circular arc which is such that it is swollen upwards. By means of a pushing force due to an elastic property of the elastic mechanism in a circular arc, the elastic contact part 38 abuts against the lower surface of the contact part 22 of the fixed terminal 21 so that the terminal fixed 21 comes into contact with the mobile terminal 31 and connects to it.

The two sides of the fixed part 33 are provided with semi-circular recesses 36 formed thereon, which semi-circular recesses receive respectively by adaptation the tabs 18 of the upper insulating housing 2B so that the movable terminal 31 is assembled on the housing 2B superior insulation with a high degree of positioning accuracy. At this instant, the mobile terminal 31 is assembled in a state in which the fixed part 33 adheres firmly to the lower surface of the upper insulating housing 2B.

An external terminal 41 which comes into contact with an external conductor of a coaxial connector of another part is formed by punching, bending and stretching a brass metal plate

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 or phosphor bronze for springs, etc. A planar portion 42 of an afferent central plate portion is covered so as to adhere to the upper surface of the upper insulating housing 2B. The four angles of the flat part 42 are respectively provided with lugs 43 which are bent along the lateral faces and the lower face of an assembly comprising the terminals 21 and 31 and the insulating housings 2A and 2B, hence the construction of the assembly so that it is solid.

At the center of the flat part 42, a through cylinder 45 is formed so as to be coaxial with the cylindrical introduction section 12 of the insulating housing 2B. The through cylinder 45 receives in adaptation the external conductor of a coaxial connector of another part. The external terminal 41 usually makes a connection to ground and its external faces are plated on demand.

A perspective view of a coaxial connector 1 which is assembled in such a way as seen from its upper face is shown in FIG. 2. The coaxial connector 1 is mounted on the surface on a printed circuit board 61 by means of reflux with a weld 62.

Then the operation of the coaxial connector 1 will be described with reference to FIGS. 4 and 5.

As shown in FIG. 4, when a coaxial connector of another part is not fixed, the movable contact part 32 is in a state in which its central part swells upwards. Consequently, the mobile terminal 31 comes into contact with the fixed terminal 21 due to a pushing force due to an elastic property of the mobile contact part 32 so that the two terminals 21 and 31 are electrically connected together.

In contrast, as shown in FIG. 5, when another coaxial connector of another part is fixed thereto, the central part of the movable contact part 32 is pushed down so as to be reversed by means of '' a central contact 65 of another coaxial connector inserted from the insertion hole 13 in the upper side so that

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 that the central part forms a circular arc swollen downwards. Thus, the elastic contact part 38 of the mobile terminal 31 is separated from the contact part 22 of the fixed terminal 21 so that the electrical connection between the fixed terminal 21 and the mobile terminal 31 is cut while the central contact 65 and the mobile terminal 31 are electrically connected together. Simultaneously, an external conductor of a coaxial connector of another part (which is not shown) is fitted in the external terminal 41 so that the external conductor is also electrically connected to the external terminal 41.

When the coaxial connector of another part is detached from the coaxial connector 1, the central part of the movable contact part 32 is returned to the state in which it swells upwards using the elastic property. Thus, the fixed terminal 21 and the mobile terminal 31 are electrically connected together again while the electrical connection between the central contact 65 and the mobile terminal 31 is cut.

The operation will be described in a more specific manner. FIG. 6 is a graph which represents the relation which links a thrust load and a displacement of the mobile terminal 31 when the related thickness is 50 micrometers. In view of FIG. 6, it can be understood that the elastic constant of the mobile terminal 31 is 0.0058 NIpM. In addition, the deterioration of the elastic constant could not be recognized even over 5000 cycles of movement of the mobile terminal 31. As shown in FIG. 4, when a coaxial connector from another part is not fixed on it, the elastic contact part 38 abuts against the fixed terminal 21 in a state in which the elastic contact part 38 is lowered by 50 micrometers relative to a position without load. At this instant, as can be understood from FIG. 6, the thrust load is 0.37 N and it exceeds the stable thrust load by 0.2 N, which makes it possible to maintain a stable contact connection.

Incidentally, it is considered that SUS 304 stainless steel should also be used as the material of the mobile terminal 31; when fixing and detaching the coaxial connector which uses

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 the mobile terminal 31 in SUS 304 stainless steel with respect to a coaxial connector of another part are repeated at ambient temperatures of approximately 80 C to 100 C, a creep or sagging occurs in the mobile terminal 31 so that the pushing load of the mobile terminal 31 is reduced. The push load is less than the stable push load of 0.2 N and is unsuitable for use at the mobile terminal. Furthermore, in the coaxial connector 1 which uses the mobile terminal 31 made of stainless steel SUS 301, the thrust load is not less than the stable thrust load of 0.2 N.

Consequently, the mobile terminal 31 is provided with the mobile elastic part 39 which is made of SUS 301 stainless steel and which has a beam structure supported at the two ends, which allows an elastic force greater than that of a conventional device such that the stable thrust load of 0.2 N can be maintained even when the dimension of the mobile terminal 31 is reduced, thereby obtaining secure contact and connection and stable. What is more, even when the thickness of SUS 301 stainless steel presents a certain diversity between batches of materials, by plating with a nickel which has a Young's modulus similar to that of SUS 301 stainless steel, variations in the elastic force due to errors in the thickness of the stainless steel SUS 301 of the movable elastic part 39 can be compensated.

When the thickness of the movable bollard 31 is less than 45 micrometers, the elastic force is too low so that the thrust load is less than the stable thrust load of 0.2 N. When the thickness of the bollard mobile 31 is greater than 62 micrometers, the elastic force is too great so that problems can occur, such that when a coaxial connector from another part is fixed, the central contact 65 is deformed and the contacts of the fixed terminal 21 and mobile terminal 31 cannot be separated, etc.

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 (Second embodiment, FIG. 7) A second embodiment will be described as a communication device which uses a mobile phone as an example.

FIG. 7 is a functional circuit diagram of an RF circuit of a portable telephone 120. In FIG. 7, the portable telephone 120 comprises an antenna element 122, a duplexer 123, a selector switch 125, an isolator in the transmit side 131, an amplifier in the transmit side 132, an interstage bandpass filter in the transmit side 133, a mixer in the transmit side 134, an amplifier in the receive side 135, an inter-stage band pass filter in the receiving side 136, a mixer in the receiving side 137, a voltage controlled oscillator (VCO) 138 and a local band pass filter 139.

As selector switch 125, the coaxial connector 1 according to the first embodiment can be used. Thus, when a mobile phone manufacturer verifies electrical characteristics of the RF circuit in the manufacturing process of the mobile phone 120, for example, as long as the coaxial connector 1 is adapted with a measurement probe 126 (coaxial connector of another part) connected to a measuring instrument, the signal path from the RF circuit to the antenna element 122 can be switched to the signal path from the RF circuit on the measuring instrument. When the measurement probe 126 is detached from the coaxial connector 1, the signal path from the RF circuit to the antenna element 122 is again restored. By mounting the coaxial connector 1 on the portable telephone 120, such a portable telephone having high reliability can be obtained.

(Other embodiments) The present invention is not limited to the embodiments which have been described above; various modifications can be made in the spirit and the scope of the invention.

According to the embodiments, the coaxial connector is described, connector according to which, after each terminal and each housing

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 insulation are manufactured separately, the two are assembled; however, the terminal can be integrally formed with the insulating housing by means of insertion molding. The external shape of the insulating housing and the shape of the recess can be chosen according to specifications from any arbitrary shape such as rectangular and circular shapes.

Furthermore, each terminal is not limited to a surface mount type; however, it may be an insert mount type. After the movable contact part, the fixed part and the connection of the mobile terminal are made separately, they can be connected together by soldering or the like.

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Claims (4)

1. Mobile terminal (31), characterized in that it comprises a frame (37); a mobile elastic part (39), the two sides of which are supported by the frame (37) and the central part of which is mobile and has an elastic property; and a contact part (38) which is integrally formed with the movable elastic part (39) and which comes into contact with and is connected to a fixed terminal (21), in which at least the mobile elastic part (39) is made of SUS 301 stainless steel. 2. mobile bollard (31) according to claim 1, characterized in that on surfaces of SUS 301 stainless steel, nickel plating films (38b) are formed and on nickel plating films (38b), gold plating films (38c) are formed and in that the total thickness of SUS 301 stainless steel including nickel plating films (38b) and the gold plating films (38c) formed thereon falls within the range of 45 micrometers to 62 micrometers. 3. Coaxial connector (1) characterized in that it comprises an insulating housing (2A, 2B) comprising a recess (13) formed therein, recess inside which a central contact of a coaxial connector of another part is inserted; a mobile terminal (31) according to claim 1 or 2 which is arranged inside the recess (13) of the insulating housing (2A, 2B) so as to project in a direction substantially orthogonal to the direction of insertion the central contact; a fixed terminal (21) arranged inside the recess (13) of the insulating housing (2A, 2B) so as to be brought into contact with the contact part (38) of the mobile terminal (31) and to be connected to it; and an external terminal (41) fixed to the outside of the insulating housing (2A, 2B) <Desc / Clms Page number 13>  and electrically connected to an external conductor of a coaxial connector of another part, the contact part (38) of the mobile terminal (31) being switched between the state in which it is separated from the fixed terminal (21) and the state in which it comes into contact with the fixed terminal in accordance with the fixing and detachment of the coaxial connector from another party. 4. Communication device (120), characterized in that it comprises a coaxial connector (1) according to claim 3.